Spectra and energy levels of trivalent holmium in strontium fluorapatite

Abstract

Polarized absorption and fluorescence spectra are reported for Ho 3+ (4f 10 ) ions incorporated into single crystals of strontium fluorapatite, Sr 5 (PO 4 ) 3 F , also known as SFAP. Site-selective excitation experiments indicate that, to within instrumental resolution, the Ho 3+ ions occupy similar lattice sites having C s symmetry. Spectra were obtained between 1940 and 400 nm at temperatures from 4 K to room temperature on crystals having the hexagonal structure [P6 3 /m(C 6h 2 )]. Individual energy (Stark) levels for the fourteen lowest-energy multiplet manifolds of Ho 3+ (4f 10 ) were analyzed in detail. These manifolds include the 5 I 8 (ground state), the remaining 5 I J manifolds, 5 F J , 5 S 2 , 3 K 8 (2), 5 G 6 , and the 3 G 5 (2) manifolds. A Hamiltonian consisting of Coulombic, spin-orbit, and crystal-field terms was diagonalized over these manifolds in an LSJM J basis set, which includes 146 crystal-quantum states, labeled either Γ 1 or Γ 2 , appropriate to the crystal-field symmetry of C s . By varying the crystal-field parameters, B nm , and the centroid for each manifold, we obtained agreement between 101 experimental and calculated Stark levels with a rms deviation of 9 cm −1 . An additional 15 Stark levels, not included in the original analyses, are predicted to within the rms deviation. The predicted symmetry label of each Stark level agrees with the experimental assignment based on the analysis of the polarized spectra.